CN117455136A - Automatic distribution method, system, software and computer equipment before PCB engineering - Google Patents

Abstract

The application provides an automatic distribution method, system, software and computer equipment before PCB engineering manufacture, wherein an order to be manufactured is selected from an order pool, engineering materials to be distributed are selected according to the order listed by the order to be manufactured, logic judgment is sequentially carried out according to client specified information and product type information, a former version producer information is used for determining a producer of the engineering materials to be distributed, and finally, unallocated engineering materials to be distributed are distributed to corresponding engineers according to the manual process data quantity list of each engineer. The engineering materials to be distributed are automatically distributed to the corresponding engineers through an automatic method, so that the working efficiency is improved, and the manpower resources are saved.

Description

Automatic distribution method, system, software and computer equipment before PCB engineering

Technical Field

The application belongs to the technical field of computers, and particularly relates to an automatic distribution method, system, software and computer equipment before PCB engineering.

Background

At present, with the continuous change of the electronic market and the increase of consumption demands, small-batch and multi-variety orders become an important component of PCB factory production orders. This means that PCB factories need to have faster processing speeds, higher throughput and flexibility for more engineering materials. In the prior art, engineering personnel are required to arrange a special person to refresh an ERP system at random, order information is printed and delivered to each group of responsible persons, and each group of responsible persons arranges orders to each engineer according to the judgment of a master. This process is inefficient, results in longer delivery cycles, and is labor intensive.

Disclosure of Invention

Aiming at the technical problems, the application provides an automatic distribution method, system, software and computer equipment before PCB engineering. And accessing the business order information into an engineering order pool through a strategy mode in a digital technology design mode, and configuring the order into an engineer personal task list through an automatic allocation method.

Specifically, the application provides an automatic distribution method before PCB engineering, which comprises the following steps:

s1: selecting an order to be manufactured from an order pool, and selecting engineering data to be distributed according to the order list;

s2: determining the producer of the engineering data to be distributed according to the client specification information;

s3: determining the producer of the engineering data to be distributed according to the product type information for the engineering data to be distributed which is not distributed in the step S2;

s4: determining that the manufacturer of the engineering data to be distributed is a previous version manufacturer according to the information of the previous version manufacturer for the engineering data to be distributed which is not distributed in the step S3;

s5: and (2) distributing the engineering data to be distributed, which are not distributed in the steps (S2-S4), to corresponding engineers according to the manual engineering data quantity list of each engineer.

Wherein, before the step S1, the method further comprises:

acquiring an order list to be manufactured containing order key information; the order key information comprises client appointed information, product type information and front version producer information;

counting the number of orders of each engineer which are not recorded in the hands, and obtaining a list of the number of manual process data of each engineer;

triggering a first instruction, and synchronizing the to-be-manufactured order list to an order pool;

triggering a second instruction to synchronize the manual process data quantity list of each engineer to an order pool.

Wherein, the step S2 includes:

judging that the client is a producer capable of appointing the engineering data to be distributed, if appointing, judging whether an appointed engineer vacates, and if not, distributing the engineering data to the appointed engineer; if the person is on holiday, sending out mail to inform the supervisor;

if not, go to step S3.

Wherein, the step S3 includes:

judging whether the product type designates the producer of the engineering data to be distributed, if so, distributing the engineering data to the designated engineer;

if not, go to step S4.

Wherein, the step S4 includes:

judging whether the engineering data to be distributed has a front version producer or not, if so, judging whether the front version producer has a holiday or not; if not, distributing the engineering data to the front version producer; if the person is on holiday, turning to step S5;

if not, go to step S5.

Wherein, the step S5 includes:

and acquiring a manual data quantity list of each engineer, sequencing the manual data quantity list according to a preset sequence, and distributing the engineering data to be distributed to engineers with the minimum manual data quantity in the sequenced list.

Specifically, the application also provides an automated distribution system before PCB engineering, comprising:

the first processing module is used for selecting an order to be manufactured from the order pool, and selecting engineering data to be distributed according to the order list order to be manufactured;

the first judging module is used for determining the producer of the engineering data to be distributed according to the client specification information;

the second judging module is used for determining the producer of the engineering data to be distributed according to the product type information for the engineering data to be distributed which is not distributed by the first judging module;

the third judging module is used for determining that the producer of the engineering data to be distributed is a previous version producer according to the previous version producer information for the engineering data to be distributed which is not distributed by the second judging module;

the second processing module is used for distributing the engineering data to be distributed to the corresponding engineers according to the manual engineering data quantity list of each engineer, wherein the engineering data to be distributed are not distributed to the first judging module, the second judging module and the third judging module.

The third processing module is used for synchronizing the list of the orders to be manufactured to the order pool by triggering the first instruction; by triggering the second instruction, each engineer is synchronized to the order pool at the manual process data quantity list.

Specifically, the application also provides automatic distribution software before PCB engineering, and the automatic distribution software before PCB engineering adopts the automatic distribution method before PCB engineering to complete automatic distribution before PCB engineering.

The application also provides computer equipment, which comprises a processor and a memory, wherein the memory is used for storing a computer program, and the computer program is executed by the processor to realize the automatic distribution method before PCB engineering.

Compared with the prior art, the application has the following beneficial effects:

the to-be-manufactured order and the manual process data quantity list of each engineer are synchronized to the order pool, and the to-be-distributed engineering data are automatically distributed to the corresponding engineers through an automatic distribution method, so that manual distribution is not needed, the working efficiency is improved, and the manpower resources are saved.

Designing a plurality of judgment logics in an automatic distribution method to realize the accurate distribution of engineering data of appointed producers to teammate engineers; for engineering materials without appointed producers, according to the manual engineering material quantity list of each engineer, the engineering materials are distributed to the engineers with the least number of hands, and the distribution method improves the engineering material processing speed and shortens the delivery cycle.

Drawings

Fig. 1 is a schematic flow chart of an automated distribution method before PCB engineering shown in an embodiment of the present application.

FIG. 2 is a schematic diagram illustrating an initialization order pool flow according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a judgment flow of an automated distribution method before PCB engineering according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of an automated distribution system before PCB engineering shown in an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a computer device according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

Embodiment one:

referring to fig. 1, a schematic flow chart of an automated distribution method before PCB engineering is shown in an embodiment of the present application.

Specifically, the application provides an automatic distribution method before PCB engineering, which comprises the following steps:

s1: selecting an order to be manufactured from an order pool, and selecting engineering data to be distributed according to the order list;

s2: determining the producer of the engineering data to be distributed according to the client specification information;

s3: determining the producer of the engineering data to be distributed according to the product type information for the engineering data to be distributed which is not distributed in the step S2;

s4: determining that the manufacturer of the engineering data to be distributed is a previous version manufacturer according to the information of the previous version manufacturer for the engineering data to be distributed which is not distributed in the step S3;

s5: and (2) distributing the engineering data to be distributed, which are not distributed in the steps (S2-S4), to corresponding engineers according to the manual engineering data quantity list of each engineer.

Further, the engineering data includes, but is not limited to, PCB design files, component lists, gerber files, 3D model files, PCB manufacturing files, etc. in PCB (Printed Circuit Board ) engineering; the engineering data comprises PCB workpiece information, wherein the PCB workpiece information comprises PCB plate information, PCB plate size, special requirements and the like.

Further, each engineer described in step S5 includes all engineers in the manual quantity list, and the engineers assigned the engineering materials in steps S2-S4 are also included.

Further, in the step S2, the specific process involves the following steps:

acquiring information related to a client, such as a client name, a client number and the like, from engineering materials to be distributed;

determining a corresponding producer according to the information specified by the client, such as querying the client information in a database or a system;

if a plurality of producers are associated with clients, selecting according to preset priority rules or determining the most suitable producer according to a certain algorithm;

and distributing the engineering data to be distributed to the determined producers so that the producers are responsible for completing the production task.

Further, in the step S3, the specific process involves the following steps:

aiming at engineering data to be distributed which is not distributed in the step S2, obtaining corresponding product type information of the engineering data to be distributed;

according to the product type information, the information of the producer associated with the product type information can be searched, for example, the corresponding relation between the product type and the producer is searched in a database or a system;

if a plurality of producers are associated with the product type, selecting according to a preset priority rule or determining the most suitable producer according to a certain algorithm;

distributing the determined producer to engineering data to be distributed to ensure that the producer is responsible for completing production tasks;

through the process, in the case that the producer cannot be determined according to the client specification information, the producer of the engineering data to be distributed is determined according to the product type information, so that the engineering data is ensured to be correctly distributed to the proper producer for production.

Further, in the step S4, the specific process involves the following steps:

aiming at engineering data to be distributed which is not distributed in the step S3, acquiring information of a producer of a previous version of the engineering data;

taking the front version producer as a candidate producer to carry out the next processing;

verifying the candidate producer to determine whether the candidate producer can continue to act as a producer, such as verifying whether the candidate producer has a holiday;

if the candidate producer passes the verification, distributing the candidate producer to the corresponding engineering data so as to enable the candidate producer to be continuously responsible for the production task;

if the candidate producer does not meet the condition and cannot act as a producer, the process proceeds to step S5;

through the process, the manufacturer of unassigned engineering materials can be determined according to the information of the previous version manufacturer, and the task is given to the manufacturer familiar with the previous version so as to ensure the consistency and consistency of the manufacture.

Further, in the step S5, the specific process involves the following steps:

collecting a manual engineering data quantity list of each engineer, wherein the list records the quantity of engineering data currently processed by each engineer on the hands;

sequencing the collected manual data quantity list of each engineer according to a preset sequence, for example, sequencing the collected manual data quantity list according to the sequence from less to more;

traversing unassigned engineering data to be assigned, and assigning one by one;

for each engineering material to be distributed, starting distribution from engineers with the least manual engineering material quantity;

distributing engineering materials to engineers with the minimum number of the engineering materials, and correspondingly updating the number of the engineering materials in the manual materials number list of the engineers;

and continuing to traverse the next engineering data to be distributed, distributing the engineering data to engineers with the least manual engineering data quantity, and correspondingly updating the manual engineering data quantity of the engineers in the manual engineering data quantity list until all the engineering data to be distributed are distributed.

Through the process, the engineering materials to be distributed can be distributed according to the manual engineering material quantity list of each engineer and according to a certain sequence order, and the engineering materials to be distributed are distributed to the engineers with the minimum manual engineering materials, so that the work load balance and the efficient processing of the engineering materials to be distributed are ensured.

Referring to fig. 2, a schematic diagram of an initialization order pool process is shown in an embodiment of the present application.

Wherein, before the step S1, the method further comprises:

acquiring an order list to be manufactured containing order key information; the order key information comprises client appointed information, product type information and front version producer information;

counting the number of orders of each engineer which are not recorded in the hands, and obtaining a list of the number of manual process data of each engineer;

triggering a first instruction, and synchronizing the to-be-manufactured order list to an order pool;

triggering a second instruction to synchronize the manual process data quantity list of each engineer to an order pool.

Further, the obtaining of the to-be-made order list containing the order key information may be implemented by querying an order database or other related systems, and specifically may include the following steps:

accessing an order management system or a database to obtain all order lists to be manufactured;

traversing each order, and extracting key information of the order, including client specifying information, product type information and front version producer information;

organizing the extracted order key information into an order list containing key information of each order;

and returning the order list as an order list to be manufactured for subsequent processing and management.

Further, counting the number of orders of each engineer which are not recorded in the hands, and obtaining a list of the number of manual data of each engineer, wherein the method can be carried out according to the following steps:

obtaining a list of all outstanding orders, which can query orders for outstanding status from an order management system or database;

for each order, searching front version producer information in order key information, and determining a responsible engineer of the order;

and counting the number of outstanding orders on each engineer hand. A dictionary or associative array may be used to record the number of orders for each engineer;

and converting the counted number of the outstanding orders into the number of engineering data, and performing corresponding conversion according to the relation between the orders and the engineering data. For example, the number of engineering materials may be determined based on the number of documents involved in the order, the size of the engineering materials, or other metrics;

the list of the number of engineering materials on hand of each engineer is sorted, including the number of engineering materials on each engineer and their hands.

Through the process, the number of orders of each engineer which are not recorded in the hand can be counted, and a corresponding engineering data number list can be obtained so as to carry out subsequent distribution and management.

Triggering a first instruction, and synchronizing a list of orders to be manufactured to an order pool:

determining an order pool system or a database which needs order synchronization;

taking an order list to be manufactured as input data;

and writing corresponding codes or scripts, and importing order data in an order list to be manufactured into an order pool to ensure that key information of orders is contained.

Triggering a second instruction to synchronize the manual process data quantity list of each engineer to the order pool:

acquiring a manual process data quantity list of each engineer;

taking a manual data quantity list of each engineer as input data;

and writing corresponding codes or scripts, and associating the manual program data quantity list of the engineers with the engineer information in the order pool to ensure that the engineering data quantity of each engineer is recorded in the order pool.

It should be noted that the specific implementation will vary depending on the order pool system or database used. It may be desirable to interact and synchronize the list of orders to be made and the list of engineering materials quantity with the order pool according to an API interface or other means of the order pool system.

Preferably, the first instruction is a timing instruction, the step of triggering the synchronization of the list of orders to be made to the order pool at a specific time, and the step of setting the first instruction may include:

determining a time and frequency of the timing trigger, e.g., a particular point in time of day, week, or month;

setting a timed task or timer, the timed task function provided in the programming language, or the related tool or service may be used to implement the timed trigger;

and executing related codes or scripts in the task triggered at regular time, and synchronizing the list of the orders to be manufactured into an order pool to ensure that key information of the orders is contained.

The setting method of the timing instruction is matched with the environment and technology used. For example, if a Python programming language is used, a library such as APScheduler or Celery may be used to set the timing tasks; if cloud service providers such as AWS or Azure are used, they also provide related timing triggered services.

Through the process of initializing the order pool, centralized management of order information is realized, traceability and transparency of orders are improved, and team members are helped to know the progress and priority of the orders; optimizing resource allocation and workload, and ensuring reasonable allocation of orders and engineering data quantity of engineers in hands; meanwhile, accurate data support is provided for service decision.

Referring to fig. 3, a schematic diagram of a determination flow of an automated distribution method before PCB engineering is shown in an embodiment of the present application.

Wherein, the step S2 includes:

judging that the client is a producer capable of appointing the engineering data to be distributed, if appointing, judging whether an appointed engineer vacates, and if not, distributing the engineering data to the appointed engineer; if the person is on holiday, sending out mail to inform the supervisor;

if not, go to step S3.

Further, the step of judging that the client is a producer capable of specifying the engineering data to be distributed comprises the following steps:

obtaining producer information specified by a client: customer-specified producer information is obtained from related documents, systems, or exchanges with customers. This may be the name, code or other identification of the engineer;

check producer field: it is checked whether there are specific fields or attributes in the engineering material to be distributed for recording the producer information specified by the customer. The contents of this field may be automatically detected and extracted using a tool or system;

judging whether the information of the producer exists or not: comparing the obtained producer information with a producer field in the engineering data to be distributed, and judging whether the specified producer information exists or not;

and (5) carrying out further processing according to the judgment result: if the producer designation information does exist, the engineering materials can be distributed to designated engineers according to the rule designated by the subsequent step; if no producer designation information exists, a next process is required, for example, going to step S3 or notifying the relevant person.

Wherein, the step S3 includes:

judging whether the product type designates the producer of the engineering data to be distributed, if so, distributing the engineering data to the designated engineer;

if not, go to step S4.

Further, the step of judging whether the product type designates the producer of the engineering data to be distributed comprises the following steps:

obtaining product type information: obtaining product type information from engineering materials to be distributed or related documents; the product type information may include an identifier, code or name representing PCB board information, PCB board size, special requirements;

determining a product type field: it is checked whether there are specific fields or attributes in the engineering material to be distributed for recording the product type information. This may be a field already set in the workflow, or information that needs to be parsed or converted from the data;

comparing the types of products: comparing the obtained product type information with a preset product type; the preset product type corresponds to a designated producer or production group;

judging whether the producer is specified: if a specified producer or a production group matched with the product type is found, judging whether the product type specifies the producer of the engineering data;

and processing according to the judgment result: according to the judgment result, the engineering data can be distributed to corresponding producers or production groups according to rules specified in the subsequent steps. If the product type does not specify a producer, the process may continue to the next step, as seen in step S4.

Wherein, the step S4 includes:

judging whether the engineering data to be distributed has a front version producer or not, if so, judging whether the front version producer has a holiday or not; if not, distributing the engineering data to the front version producer; if the person is on holiday, turning to step S5;

if not, go to step S5.

Further, determining whether the project data to be distributed has a front version producer includes the following steps:

acquiring information of a previous version producer: acquiring information of a front version producer from related documents, history records or databases; the pre-release producer information may be the name, code, or other identification of the engineer;

pre-inspection version producer field: checking whether a specific field or attribute is used for recording the pre-version producer information in the engineering material to be distributed, and specifically, using a tool or a system to automatically detect and extract the content of the field;

judging whether the information of the prior version producer exists or not: comparing the acquired information of the front version producer with the front version producer field in the engineering data to be distributed, and judging whether the information of the front version producer exists or not;

and (5) carrying out further processing according to the judgment result: if the previous version producer information does exist, the engineering data can be distributed to the previous version producer according to the rule specified by the subsequent step, and if the previous version producer information does not exist, the next processing is needed, for example, the step S5 is shifted or the related personnel are notified;

it will be appreciated that determining whether or not the project material to be distributed exists in the prior version producer may depend on the particular system or workflow. In practical application, corresponding adjustment and customization can be performed according to project requirements and practical conditions.

Wherein, the step S5 includes:

and acquiring a manual data quantity list of each engineer, sequencing the manual data quantity list according to a preset sequence, and distributing the engineering data to be distributed to engineers with the minimum manual data quantity in the sequenced list.

By judging whether the client designates the producer of the engineering data to be distributed and whether the product type is the producer of the engineering data to be distributed and whether the prior version producer exists in the engineering data to be distributed, the engineering data to be distributed is automatically distributed to corresponding engineers, the accuracy of engineering data distribution is improved, and the utilization of engineering master resources is optimized; the automatic distribution flow reduces manual intervention and judgment processes, and improves the overall working efficiency.

Embodiment two:

referring to fig. 4, a schematic structural diagram of an automated distribution system before PCB engineering is shown in an embodiment of the present application.

Specifically, the application also provides an automated distribution system before PCB engineering, comprising:

the first processing module is used for selecting an order to be manufactured from the order pool, and selecting engineering data to be distributed according to the order list order to be manufactured;

the first judging module is used for determining the producer of the engineering data to be distributed according to the client specification information;

the second judging module is used for determining the producer of the engineering data to be distributed according to the product type information for the engineering data to be distributed which is not distributed by the first judging module;

the third judging module is used for determining that the producer of the engineering data to be distributed is a previous version producer according to the previous version producer information for the engineering data to be distributed which is not distributed by the second judging module;

the second processing module is used for distributing the engineering data to be distributed to the corresponding engineers according to the manual engineering data quantity list of each engineer, wherein the engineering data to be distributed are not distributed to the first judging module, the second judging module and the third judging module.

The third processing module is used for synchronizing the list of the orders to be manufactured to the order pool by triggering the first instruction; by triggering the second instruction, each engineer is synchronized to the order pool at the manual process data quantity list.

Furthermore, the automatic distribution system before PCB engineering can be loaded in an automatic distribution device, and the system can further comprise a module which is used for automatically grabbing key information of a business order.

The module is the complete automatic distribution system before PCB engineering, and can realize the accurate distribution of engineering data to be distributed in an order list to corresponding engineers. The specific implementation process and principle are described in detail in the first embodiment, and are not described in detail in this embodiment.

Embodiment III:

specifically, the application also provides automatic distribution software before PCB engineering, and the automatic distribution software before PCB engineering adopts the automatic distribution method before PCB engineering to complete automatic distribution before PCB engineering.

Through the software, the PCB engineering data to be distributed can be automatically distributed according to the client specified information, the product type information and the front version producer information. The software judges the engineering data to be distributed according to preset rules and conditions and distributes the engineering data to corresponding producers or production groups. Meanwhile, the software can be dynamically data-synchronized with an order pool and an engineer data quantity list, so that the timely and accurate allocation decision is ensured.

By automatically distributing software before PCB engineering, the efficiency and accuracy before PCB engineering can be improved, and manual intervention and errors can be reduced. This will provide better support and optimization for the flow and project management before PCB engineering.

Embodiment four:

referring to fig. 5, a schematic structural diagram of a computer device according to an embodiment of the present application is shown.

The application also provides computer equipment, which comprises a processor and a memory, wherein the memory is used for storing a computer program, and the computer program is executed by the processor to realize the automatic distribution method before PCB engineering.

As shown in fig. 5, the computer device 5 of this embodiment includes: at least one processor 50 (only one is shown in fig. 5), a memory 51 and a computer program 52 stored in the memory 51 and executable on the at least one processor 50, the processor 50 implementing the steps in any of the method embodiments described above when executing the computer program 52.

The computer device 5 may be a smart phone, a tablet computer, a desktop computer, a cloud server, or other computing devices. The computer device may include, but is not limited to, a processor 50, a memory 51. It will be appreciated by those skilled in the art that fig. 3 is merely an example of the computer device 5 and is not meant to be limiting as the computer device 5 may include more or fewer components than shown, or may combine certain components, or different components, such as may also include input-output devices, network access devices, etc.

The processor 50 may be a central processing unit (Central Processing Unit, CPU), the processor 50 may also be other general purpose processors, digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), off-the-shelf programmable gate arrays (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The memory 51 may in some embodiments be an internal storage unit of the computer device 5, such as a hard disk or a memory of the computer device 5. The memory 51 may in other embodiments also be an external storage device of the computer device 5, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash Card (Flash Card) or the like, which are provided on the computer device 5. Further, the memory 51 may also include both an internal storage unit and an external storage device of the computer device 5. The memory 51 is used for storing an operating system, application programs, boot loader (BootLoader), data, other programs, etc., such as program codes of the computer program. The memory 51 may also be used to temporarily store data that has been output or is to be output.

In several embodiments provided herein, it will be understood that each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved.

The functions, if implemented in the form of software functional modules and sold or used as a stand-alone product, may be stored in a computer-readable storage medium. Based on this understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device to perform all or part of the steps of the method described in the various embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The foregoing embodiments have been provided for the purpose of illustrating the objects, technical solutions and advantages of the present application in further detail, and it should be understood that the foregoing embodiments are merely examples of the present application and are not intended to limit the scope of the present application. It should be noted that any modifications, equivalent substitutions, improvements, etc. made by those skilled in the art, which are within the spirit and principles of the present application, are intended to be included within the scope of the present application.

Claims (10)

1. An automated distribution method before PCB engineering, comprising:

s1: selecting an order to be manufactured from an order pool, and selecting engineering data to be distributed according to the order list;

s2: determining the producer of the engineering data to be distributed according to the client specification information;

s3: determining the producer of the engineering data to be distributed according to the product type information for the engineering data to be distributed which is not distributed in the step S2;

s4: determining that the manufacturer of the engineering data to be distributed is a previous version manufacturer according to the information of the previous version manufacturer for the engineering data to be distributed which is not distributed in the step S3;

s5: and (2) distributing the engineering data to be distributed, which are not distributed in the steps (S2-S4), to corresponding engineers according to the manual engineering data quantity list of each engineer.

2. The automated distribution method before PCB engineering according to claim 1, wherein the step S1 further comprises:

acquiring an order list to be manufactured containing order key information; the order key information comprises client appointed information, product type information and front version producer information;

counting the number of orders of each engineer which are not recorded in the hands, and obtaining a list of the number of manual process data of each engineer;

triggering a first instruction, and synchronizing the to-be-manufactured order list to an order pool;

triggering a second instruction to synchronize the manual process data quantity list of each engineer to an order pool.

3. The automated distribution method before PCB engineering according to claim 2, wherein the step S2 includes:

judging that the client is a producer capable of appointing the engineering data to be distributed, if appointing, judging whether an appointed engineer vacates, and if not, distributing the engineering data to the appointed engineer; if the person is on holiday, sending out mail to inform the supervisor;

if not, go to step S3.

4. A method for automated distribution of PCBs before engineering according to claim 3, wherein the step S3 comprises:

judging whether the product type designates the producer of the engineering data to be distributed, if so, distributing the engineering data to the designated engineer;

if not, go to step S4.

5. The automated distribution method before PCB engineering according to claim 4, wherein the step S4 includes:

judging whether the engineering data to be distributed has a front version producer or not, if so, judging whether the front version producer has a holiday or not; if not, distributing the engineering data to the front version producer; if the person is on holiday, turning to step S5;

if not, go to step S5.

6. The automated distribution method before PCB engineering according to claim 5, wherein the step S5 includes:

and acquiring a manual data quantity list of each engineer, sequencing the manual data quantity list according to a preset sequence, and distributing the engineering data to be distributed to engineers with the minimum manual data quantity in the sequenced list.

7. A system employing the automated pre-PCB engineering dispensing method of any one of claims 1-6, comprising:

the first processing module is used for selecting an order to be manufactured from the order pool, and selecting engineering data to be distributed according to the order list order to be manufactured;

the first judging module is used for determining the producer of the engineering data to be distributed according to the client specification information;

the second judging module is used for determining the producer of the engineering data to be distributed according to the product type information for the engineering data to be distributed which is not distributed by the first judging module;

the third judging module is used for determining that the producer of the engineering data to be distributed is a previous version producer according to the previous version producer information for the engineering data to be distributed which is not distributed by the second judging module;

the second processing module is used for distributing the engineering data to be distributed to the corresponding engineers according to the manual engineering data quantity list of each engineer, wherein the engineering data to be distributed are not distributed to the first judging module, the second judging module and the third judging module.

8. The system of claim 7, further comprising:

the third processing module is used for synchronizing the list of the orders to be manufactured to the order pool by triggering the first instruction; by triggering the second instruction, each engineer is synchronized to the order pool at the manual process data quantity list.

9. The automatic distribution software before the PCB engineering is characterized in that the automatic distribution software before the PCB engineering adopts the automatic distribution method before the PCB engineering according to any one of claims 1-6 to complete the automatic distribution before the PCB engineering.

10. A computer device comprising a processor and a memory for storing a computer program which when executed by the processor implements a pre-PCB engineering automated allocation method according to any one of claims 1-6.